• hot spot
    Kilauea, above, is one of five volcanoes on the "Big Island" of Hawaii—three of them active. The Big Island sits over the Hawaiian hot spot.

    It's Like Watching Grass Grow (or Plates Move)...
    The Pacific plate moves about as quickly as your fingernails grow: roughly 10 centimeters (4 inches) per year.

    Hot Spots are Cool
    Island volcanoes that form over hot spots are generally less explosive than volcanic arcs that form over subduction zones. 
    Extraterrestrial Hot Spots
    One of the most geologically active places in the solar system is the hot spots that may be cracking up the icy surface of Jupiter’s moon Europa. Many astrophysicists think that warm ice is rising up through the colder ice of the outer crust, causing it to crack with lenticulae, or “freckles,” on the moon’s surface.
    A hot spot is is fed by a region deep within the Earth’s mantle from which heat rises through the process of convection. This heat facilitates the melting of rock at the base of the lithosphere, where the brittle, upper portion of the mantle meets the Earth’s crust. The melted rock, known as magma, often pushes through cracks in the crust to form volcanoes.  
    Hot spot volcanism is unique because it does not occur at the boundaries of Earth’s tectonic plates, where all other volcanism occurs. Instead it occurs at abnormally hot centers known as mantle plumes. Scientific models depict these plumes of molten rock almost like a lava lamp, with a rising bulbous head fed by a long, narrow tail that originates in the mantle. As the plume head reaches the lithosphere, it spreads into a mushroom shape that reaches roughly 500 to 1000 kilometers (310 to 621 miles) in diameter. These features are called diapirs.
    Scientists have different theories about where hot spots form. The dominant theory, framed by Canadian geophysicist J. Tuzo Wilson in 1963, states that hot spot volcanoes are created by exceptionally hot areas fixed deep below the Earth’s mantle. More recent scientific studies suggest that these hot spots may be found at more shallow depths in the Earth’s mantle and may migrate slowly over geologic time rather than stay fixed in the same spot.  
    A volcano above a hot spot does not erupt forever. Attached to the tectonic plate below, the volcano moves and is eventually cut off from the hot spot. Without any source of heat, the volcano becomes extinct and cools. This cooling causes the rock of the volcano and the tectonic plate to become more dense. Over time, the dense rock sinks and erodes. A new and active volcano develops over the hot spot, creating a continuous cycle of volcanism. 
    Hot Spot Features 
    Most scientists think that 40 to 50 hot spots exist around the world, although this number varies widely because of differing definitions of what a hot spot is. Major hot spots include the Iceland hot spot, under the island of Iceland in the North Atlantic; the Réunion hot spot, under the island of Réunion in the Indian Ocean; and the Afar hot spot, located under northeastern Ethiopia.
    Volcanic activity at hot spots can create submarine mountains known as seamounts. Some scientists estimate that seamounts make up 28.8 million square kilometers (17.9 million square miles) of the Earth’s surface, an area larger than any other habitat. Depending on the amount of volcanic activity, seamounts can rise hundreds or thousands of meters from the seafloor.  
    The Louisville Seamount Chain, for example, is comprised of over 80 seamounts that extend in a 4,000 kilometer (2,485 mile) arc in the South Pacific Ocean, about 1,500 kilometers (932 miles) from Wellington, New Zealand. The seamounts originated from a single hot spot and have been slowly transported in a northwest direction by the Pacific plate. 
    Hot spot seamounts that reach the surface of the water can create entire chains of islands, such as the U.S. state of Hawaii. Scientists think that this volcanic chain of islands has been forming for at least 70 million years over a hot spot underneath the Pacific plate. The Hawaiian Islands were created one right after the other as the plate moved northwest—almost like an island factory. Of all the inhabited Hawaiian Islands, Kauai is located farthest from the presumed hot spot and has the most eroded and oldest volcanic rocks, dated to be around 5.5 million years old. Meanwhile, on the “Big Island” of Hawaii, the oldest rocks are less than 0.7 million years old and volcanic activity continues to create new land. 
    Hot spots can also develop beneath continents. The Yellowstone hot spot, for example, has produced a series of volcanic features that extend in a northeastern direction. The features stretch from the U.S. states of Idaho and Oregon, some 650 kilometers (400 miles) to northwest Wyoming. Over 16.5 million years, the hot spot has generated 15 to 20 massive eruptions that left large volcanic depressions called calderas. The McDermitt Volcanic Field, located on the Nevada-Oregon border, is the hot spot’s oldest large feature. It formed from an eruption roughly 16.1 million years ago. The active Yellowstone Caldera, in Yellowstone National Park in northwest Wyoming, is the hot spot’s youngest large feature, having last erupted just 640,000 years ago.  
    Hot spots don't always create volcanoes that spew rivers of lava. Sometimes, the magma heats up groundwater under the Earth’s surface, which causes water and steam to erupt like a volcano. These eruptions are called geysers. A famous geyser is Old Faithful in Yellowstone National Park. When it erupts, the water is 95.6 degrees Celsius (204 degrees Fahrenheit) and can reach more than 55 meters (180 feet) high. 
  • Term Part of Speech Definition Encyclopedic Entry
    abnormal Adjective


    active volcano Noun

    volcano that has had a recorded eruption since the last glacial period, about 10,000 years ago.

    arc Noun

    part of the outline of a circle.

    brittle Adjective

    fragile or easily broken.

    bulbous Adjective

    swollen or shaped like a bulb.

    caldera Noun

    large depression resulting from the collapse of the center of a volcano.

    Encyclopedic Entry: caldera
    continent Noun

    one of the seven main land masses on Earth.

    Encyclopedic Entry: continent
    continuous Adjective


    convection Noun

    transfer of heat by the movement of the heated parts of a liquid or gas.

    crust Noun

    rocky outermost layer of Earth or other planet.

    Encyclopedic Entry: crust
    dense Adjective

    having parts or molecules that are packed closely together.

    depict Verb

    to illustrate or show.

    depression Noun

    indentation or dip in the landscape.

    diameter Noun

    width of a circle.

    diapir Noun

    dome-shaped geologic feature (intrusion) where more fluid material is forced into brittle overlying rock.

    dominant Adjective

    main or most important.

    Earth Noun

    our planet, the third from the Sun. The Earth is the only place in the known universe that supports life.

    Encyclopedic Entry: Earth
    erode Verb

    to wear away.

    erupt Verb

    to explode or suddenly eject material.

    estimate Verb

    to guess based on knowledge of the situation or object.

    extend Verb

    to enlarge or continue.

    extinct Adjective

    no longer existing.

    facilitate Verb

    to help or make easier.

    generate Verb

    to create or begin.

    geologic Adjective

    having to do with the physical formations of the Earth.

    geophysicist Noun

    person who studies the material and activity of the Earth and its atmosphere.

    geyser Noun

    natural hot spring that sometimes erupts with water or steam.

    Encyclopedic Entry: geyser
    groundwater Noun

    water found in an aquifer.

    Encyclopedic Entry: groundwater
    habitat Noun

    environment where an organism lives throughout the year or for shorter periods of time.

    Encyclopedic Entry: habitat
    hot spot Noun

    intensely hot region deep within the Earth that rises to just underneath the surface. Some hot spots produce volcanoes.

    Encyclopedic Entry: hot spot
    inhabit Verb

    to live in a specific place.

    island Noun

    body of land surrounded by water.

    Encyclopedic Entry: island
    lava Noun

    molten rock, or magma, that erupts from volcanoes or fissures in the Earth's surface.

    lithosphere Noun

    outer, solid portion of the Earth. Also called the geosphere.

    Encyclopedic Entry: lithosphere
    magma Noun

    molten, or partially melted, rock beneath the Earth's surface.

    Encyclopedic Entry: magma
    mantle Noun

    middle layer of the Earth, made of mostly solid rock.

    Encyclopedic Entry: mantle
    mantle plume Noun

    upwelling of magma within Earth's mantle.

    massive Adjective

    very large or heavy.

    migrate Verb

    to move from one place or activity to another.

    molten Adjective

    solid material turned to liquid by heat.

    originate Verb

    to begin or start.

    portion Noun

    part of a whole.

    presume Verb

    to assume in the absence of facts to the contrary.

    region Noun

    any area on Earth with one or more common characteristics. Regions are the basic units of geography.

    Encyclopedic Entry: region
    rock Noun

    natural substance composed of solid mineral matter.

    seamount Noun

    underwater mountain.

    spew Verb

    to eject or discharge violently.

    steam Noun

    water vapor.

    submarine Adjective


    tectonic plate Noun

    massive slab of solid rock made up of Earth's lithosphere (crust and upper mantle). Also called lithospheric plate.

    transport Verb

    to move material from one place to another.

    unique Adjective

    one of a kind.

    volcano Noun

    an opening in the Earth's crust, through which lava, ash, and gases erupt, and also the cone built by eruptions.

    Encyclopedic Entry: volcano